String Field Theory: A Review
Abstract
As of today there exist consistent, gauge-invariant string field theories describing all string theories: bosonic open and closed strings, open superstrings, heterotic strings and type II strings. The construction of these theories require algebraic ingredients, such as and homotopy algebras, geometric ingredients, relevant to the building of moduli spaces of Riemann surfaces and the distribution of picture changing operators, and field-theoretic ingredients, involving two-dimensional CFT's and BCFT's and Batalin-Vilkovisky quantization. Applications of string field theory include the description of non-perturbative phenomena such as tachyon condensation and classical solutions, and the resolution of a number of ambiguities that bedevil the world-sheet formulation of perturbative string theory. It also allows, given a proper definition of contours of integration for momenta, for a proof of unitarity and a clear understanding of the ultraviolet finiteness of the theory. In this article we review these developments.
Cite
@article{arxiv.2405.19421,
title = {String Field Theory: A Review},
author = {Ashoke Sen and Barton Zwiebach},
journal= {arXiv preprint arXiv:2405.19421},
year = {2024}
}
Comments
172 pages, 22 figures. Expanded version of a review for "Handbook of Quantum Gravity", eds. C. Bambi, L. Modesto and I.Shapiro. New version with very minor changes and a few extra references